tl;dr:
--enable-fatal-warnings
make check
before submitting a patchmake distcheck
if you have made changes to build system componentschanges
for your branch.If possible, send your patch as one of these (in descending order of preference)
Did you remember...
--enable-fatal-warnings
?make check-docs
to see whether all new options are on
the manpage?make test-full
to test against all unit and integration tests (or
make test-full-online
if you have a working connection to the internet)?make distcheck
?changes
directory as appropriate?If you are submitting a major patch or new feature, or want to in the future...
make test-full
to test against all unit and integration tests.If you have changed build system components:
make distcheck
Tor is distributed under the license terms in the LICENSE -- in brief, the "3-clause BSD license". If you send us code to distribute with Tor, it needs to be code that we can distribute under those terms. Please don't send us patches unless you agree to allow this.
Some compatible licenses include:
Each main development series (like 0.2.1, 0.2.2, etc) has its main work applied to a single branch. At most one series can be the development series at a time; all other series are maintenance series that get bug-fixes only. The development series is built in a git branch called "master"; the maintenance series are built in branches called "maint-0.2.0", "maint-0.2.1", and so on. We regularly merge the active maint branches forward.
For all series except the development series, we also have a "release" branch (as in "release-0.2.1"). The release series is based on the corresponding maintenance series, except that it deliberately lags the maint series for most of its patches, so that bugfix patches are not typically included in a maintenance release until they've been tested for a while in a development release. Occasionally, we'll merge an urgent bugfix into the release branch before it gets merged into maint, but that's rare.
If you're working on a bugfix for a bug that occurs in a particular version, base your bugfix branch on the "maint" branch for the first supported series that has that bug. (As of June 2013, we're supporting 0.2.3 and later.)
If you're working on a new feature, base it on the master branch. If you're working on a new feature and it will take a while to implement and/or you'd like to avoid the possibility of unrelated bugs in Tor while you're implementing your feature, consider branching off of the latest maint- branch. Never branch off a relase- branch. Don't branch off a tag either: they come from release branches. Doing so will likely produce a nightmare of merge conflicts in the ChangeLog when it comes time to merge your branch into Tor. Best advice: don't try to keep an independent branch forked for more than 6 months and expect it to merge cleanly. Try to merge pieces early and often.
When you do a commit that needs a ChangeLog entry, add a new file to
the changes
toplevel subdirectory. It should have the format of a
one-entry changelog section from the current ChangeLog file, as in
o Major bugfixes (security):
- Fix a potential buffer overflow. Fixes bug 99999; bugfix on
0.3.1.4-beta.
o Minor features (performance):
- Make tor faster. Closes ticket 88888.
To write a changes file, first categorize the change. Some common categories are: o Minor bugfixes (subheading): o Major bugfixes (subheading): o Minor features (subheading): o Major features (subheading): o Code simplifications and refactoring: o Testing: o Documentation:
The subheading is a particular area within Tor. See the ChangeLog for examples.
Then say what the change does. If it's a bugfix, mention what bug it fixes
and when the bug was introduced. To find out which Git tag the change was
introduced in, you can use git describe --contains <sha1 of commit>
.
If you don't know the commit, you can search the git diffs (-S) for the first
instance of the feature (--reverse).
For example, for #30224, we wanted to know when the bridge-distribution-request feature was introduced into Tor:
$ git log -S bridge-distribution-request --reverse
commit ebab521525
Author: Roger Dingledine <arma@torproject.org>
Date: Sun Nov 13 02:39:16 2016 -0500
Add new BridgeDistribution config option
$ git describe --contains ebab521525
tor-0.3.2.3-alpha~15^2~4
If you need to know all the Tor versions that contain a commit, use:
$ git tag --contains 9f2efd02a1 | sort -V
tor-0.2.5.16
tor-0.2.8.17
tor-0.2.9.14
tor-0.2.9.15
...
tor-0.3.0.13
tor-0.3.1.9
tor-0.3.1.10
...
If at all possible, try to create the changes file in the same commit where
you are making the change. Please give it a distinctive name that no other
branch will use for the lifetime of your change. We usually use "ticketNNNNN"
or "bugNNNNN", where NNNNN is the ticket number. To verify the format of the
changes file, you can use make check-changes
. This is run automatically as
part of make check
-- if it fails, we must fix it as soon as possible, so
that our CI passes. These checks are implemented in
scripts/maint/lintChanges.py
.
Changes file style guide:
Make everything terse.
Write from the user's point of view: describe the user-visible changes right away.
Mention configuration options by name. If they're rare or unusual, remind people what they're for.
Describe changes in the present tense and in the imperative: not past.
Every bugfix should have a sentence of the form "Fixes bug 1234; bugfix on 0.1.2.3-alpha", describing what bug was fixed and where it came from.
"Relays", not "servers", "nodes", or "Tor relays".
When we go to make a release, we will concatenate all the entries in changes to make a draft changelog, and clear the directory. We'll then edit the draft changelog into a nice readable format.
What needs a changes file?
What does not need a changes file?
Why use changes files instead of Git commit messages?
Why use changes files instead of entries in the ChangeLog?
Invoke make check-spaces
from time to time, so it can tell you about
deviations from our C whitespace style. Generally, we use:
if (x)
, while (x)
, and switch (x)
, never if(x)
, while(x)
, or
switch(x)
.puts(x)
, not
puts (x)
.If you use an editor that has plugins for editorconfig.org, the file
.editorconfig
will help you to conform this coding style.
We try hard to build without warnings everywhere. In particular, if
you're using gcc, you should invoke the configure script with the
option --enable-fatal-warnings
. This will tell the compiler
to make all warnings into errors.
We have some wrapper functions like tor_malloc
, tor_free
, tor_strdup
, and
tor_gettimeofday;
use them instead of their generic equivalents. (They
always succeed or exit.)
You can get a full list of the compatibility functions that Tor provides by
looking through src/lib/*/*.h
. You can see the
available containers in src/lib/containers/*.h
. You should probably
familiarize yourself with these modules before you write too much code, or
else you'll wind up reinventing the wheel.
We don't use strcat
or strcpy
or sprintf
of any of those notoriously broken
old C functions. Use strlcat
, strlcpy
, or tor_snprintf/tor_asprintf
instead.
We don't call memcmp()
directly. Use fast_memeq()
, fast_memneq()
,
tor_memeq()
, or tor_memneq()
for most purposes.
Also see a longer list of functions to avoid in: https://people.torproject.org/~nickm/tor-auto/internal/this-not-that.html
We're trying to simplify Tor's structure over time. In the long run, we want Tor to be structured as a set of modules with no circular dependencies.
This property is currently provided by the modules in src/lib, but not throughout the rest of Tor. In general, higher-level libraries may use lower-level libraries, but never the reverse.
To prevent new circular dependencies from landing, we have a tool that
you can invoke with make check-includes
, and which is run
automatically as part of make check
. This tool will verify that, for
every source directory with a .may_include
file, no local headers are
included except those specifically permitted by the .may_include
file.
When editing one of these files, please make sure that you are not
introducing any cycles into Tor's dependency graph.
Floating point arithmetic as typically implemented by computers is very counterintuitive. Failure to adequately analyze floating point usage can result in surprising behavior and even security vulnerabilities!
General advice:
==
, instead, use >=
or <=
. If you use an
epsilon value, make sure it's appropriate for the ranges in
question.For additional useful advice (and a little bit of background), see What Every Programmer Should Know About Floating-Point Arithmetic.
A list of notable (and surprising) facts about floating point arithmetic is at Floating-point complexities. Most of that series of posts on floating point is helpful.
For more detailed (and math-intensive) background, see What Every Computer Scientist Should Know About Floating-Point Arithmetic.
The a ? b : c
trinary operator only goes inside other expressions;
don't use it as a replacement for if. (You can ignore this inside macro
definitions when necessary.)
Assignment operators shouldn't nest inside other expressions. (You can ignore this inside macro definitions when necessary.)
Try to never hand-write new code to parse or generate binary formats. Instead, use trunnel if at all possible. See
https://gitweb.torproject.org/trunnel.git/tree
for more information about trunnel.
For information on adding new trunnel code to Tor, see src/trunnel/README
Whenever possible, functions should return -1 on error and 0 on success.
For multi-word identifiers, use lowercase words combined with
underscores. (e.g., multi_word_identifier
). Use ALL_CAPS for macros and
constants.
Typenames should end with _t
.
Function names should be prefixed with a module name or object name. (In general, code to manipulate an object should be a module with the same name as the object, so it's hard to tell which convention is used.)
Functions that do things should have imperative-verb names
(e.g. buffer_clear
, buffer_resize
); functions that return booleans should
have predicate names (e.g. buffer_is_empty
, buffer_needs_resizing
).
If you find that you have four or more possible return code values, it's probably time to create an enum. If you find that you are passing three or more flags to a function, it's probably time to create a flags argument that takes a bitfield.
Don't optimize anything if it's not in the critical path. Right now, the critical path seems to be AES, logging, and the network itself. Feel free to do your own profiling to determine otherwise.
https://www.torproject.org/docs/faq#LogLevel
No error or warning messages should be expected during normal OR or OP operation.
If a library function is currently called such that failure always means ERR, then the library function should log WARN and let the caller log ERR.
Every message of severity INFO or higher should either (A) be intelligible to end-users who don't know the Tor source; or (B) somehow inform the end-users that they aren't expected to understand the message (perhaps with a string like "internal error"). Option (A) is to be preferred to option (B).
Assertions should be used for bug-detection only. Don't use assertions to detect bad user inputs, network errors, resource exhaustion, or similar issues.
Tor is always built with assertions enabled, so try to only use
tor_assert()
for cases where you are absolutely sure that crashing is the
least bad option. Many bugs have been caused by use of tor_assert()
when
another kind of check would have been safer.
If you're writing an assertion to test for a bug that you can recover from,
use tor_assert_nonfatal()
in place of tor_assert()
. If you'd like to
write a conditional that incorporates a nonfatal assertion, use the BUG()
macro, as in:
if (BUG(ptr == NULL))
return -1;
By convention, any tor type with a name like abc_t
should be allocated
by a function named abc_new()
. This function should never return
NULL.
Also, a type named abc_t
should be freed by a function named abc_free_()
.
Don't call this abc_free_()
function directly -- instead, wrap it in a
macro called abc_free()
, using the FREE_AND_NULL
macro:
void abc_free_(abc_t *obj);
#define abc_free(obj) FREE_AND_NULL(abc_t, abc_free_, (obj))
This macro will free the underlying abc_t
object, and will also set
the object pointer to NULL.
You should define all abc_free_()
functions to accept NULL inputs:
void
abc_free_(abc_t *obj)
{
if (!obj)
return;
tor_free(obj->name);
thing_free(obj->thing);
tor_free(obj);
}
If you need a free function that takes a void *
argument (for example,
to use it as a function callback), define it with a name like
abc_free_void()
:
static void
abc_free_void_(void *obj)
{
abc_free_(obj);
}
Say what functions do as a series of one or more imperative sentences, as though you were telling somebody how to be the function. In other words, DO NOT say:
/** The strtol function parses a number.
*
* nptr -- the string to parse. It can include whitespace.
* endptr -- a string pointer to hold the first thing that is not part
* of the number, if present.
* base -- the numeric base.
* returns: the resulting number.
*/
long strtol(const char *nptr, char **nptr, int base);
Instead, please DO say:
/** Parse a number in radix <b>base</b> from the string <b>nptr</b>,
* and return the result. Skip all leading whitespace. If
* <b>endptr</b> is not NULL, set *<b>endptr</b> to the first character
* after the number parsed.
**/
long strtol(const char *nptr, char **nptr, int base);
Doxygen comments are the contract in our abstraction-by-contract world: if the functions that call your function rely on it doing something, then your function should mention that it does that something in the documentation. If you rely on a function doing something beyond what is in its documentation, then you should watch out, or it might do something else later.